Comparative Analysis of Nitrogen Assimilation Pathways in Pseudomonas using Hypergraphs
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1 Comparative Analysis of Nitrogen Assimilation Pathways in Pseudomonas using Hypergraphs Aziz Mithani, Arantza Rico, Rachel Jones, Gail Preston and Jotun Hein Department of Statistics and Department of Plant Sciences, University of Oxford, South Parks Road, Oxford, UK Nitrogen2007 Symposium 30 July 2007 Aziz Mithani (University of Oxford) Comp. Analysis of Assimilation Pathways Nitrogen2007 (30 July 2007) 1 / 17
2 Motivation Metabolic networks have diverse applications... Metabolic networks can be used in many different types of studies Aziz Mithani (University of Oxford) Comp. Analysis of Assimilation Pathways Nitrogen2007 (30 July 2007) 2 / 17
3 Problem Commonly used representation is not adequate... Metabolic networks are generally represented by directed graphs Nodes - metabolites Edges - reactions / enzymes Limitations Cannot capture relationship between more than two metabolites in a reaction Ignores dependence between the metabolites Not ideal for representing multiple connections (reactions) between metabolites Solution Use hypergraphs Figure: The cysteine metabolism network in P. fluorescens PfO-1 from KEGG represented as a graph. Aziz Mithani (University of Oxford) Comp. Analysis of Assimilation Pathways Nitrogen2007 (30 July 2007) 3 / 17
4 Outline The way forward... 1 Hypergraph 2 Rahnuma: Pathway Analysis and Network Comparison Tool Pathway Analysis Network Comparison 3 Case Study: Predicting amino acid assimilation pathways 4 Future Work 5 References and Acknowledgements Aziz Mithani (University of Oxford) Comp. Analysis of Assimilation Pathways Nitrogen2007 (30 July 2007) 4 / 17
5 Why Pseudomonas? Important pathogenic bacteria Occupy diverse niche Nitrogen assimilation is widely studied in Pseudomonas species Figure: P. aeruginosa Figure: Pith necrosis caused by P. fluorescens (Source: Saygili et al., 2004) Figure: Halo blight of beans, caused by P. syringae pv. phaseolicola. (Source: The American Phytopathological Society) Aziz Mithani (University of Oxford) Comp. Analysis of Assimilation Pathways Nitrogen2007 (30 July 2007) 5 / 17
6 Hypergraphs Hypergraphs are ideal for representing metabolic networks... Hypergraphs are generalisation of ordinary graphs. An edge (reaction) may connect any number of nodes or vertices (metabolites) Advantages Allows enumeration of multiple reactions connecting metabolites Ideal for representing the relationships between multiple metabolites in a reaction Provide an intuitive approach to finding pathways between two metabolites Figure: Hypergraph representation of the cysteine metabolism network in P. fluorescens PfO-1. Compounds such as ATP, AMP, H 2 O not shown. Aziz Mithani (University of Oxford) Comp. Analysis of Assimilation Pathways Nitrogen2007 (30 July 2007) 6 / 17
7 Rahnuma: Pathway Analysis & Network Comparison Tool A hypergraph based tool... Rahnuma someone who guides through the path (Urdu language) The Tool Written in Java Represents networks as directed hypergraphs Uses advanced data structures to efficiently compute the pathways between the metabolites or group of metabolites Outperforms KEGG s PathComp tool (Kanehisa, 2006) in many areas See poster (P46) for details Modules 1 Pathway prediction and analysis 2 Network comparison Aziz Mithani (University of Oxford) Comp. Analysis of Assimilation Pathways Nitrogen2007 (30 July 2007) 7 / 17
8 Rahnuma: Application Areas Rahnuma is a versatile tool... Rahnuma can be used in many different types of studies Aziz Mithani (University of Oxford) Comp. Analysis of Assimilation Pathways Nitrogen2007 (30 July 2007) 8 / 17
9 Rahnuma Pathway Prediction and Analysis Module Explores all possible pathways between metabolites... Basic Mode At each step of the pathway calculation, all the reactions in which the metabolite being considered is a substrate are processed Two types of analysis 1 Connection based Requires connection file 2 Reaction based Process all possible connections Optional parameters in Reaction based analysis: 1 Compounds to be ignored, e.g. ATP, AMP, H 2 O etc. 2 Elements to be traced, e.g. carbon, nitrogen etc. Extended Mode Allows following additional functionalities Type Annotation in silico Experiment P Predicted Reaction Gene Insertion KO Invalid Reaction Knock-out Aziz Mithani (University of Oxford) Comp. Analysis of Assimilation Pathways Nitrogen2007 (30 July 2007) 9 / 17
10 Results for Pathway Analysis Rahnuma helps explaining the experimental results... Minimum predicted pathway lengths to ammonia from selected amino acids are shown below along with the experimental results (Rico and Preston, submitted). P. fluorescens PfO-1 P. syringae DC3000 Min Length Biolog Min Length Biolog Alanine /w Arginine Cysteine 4 /w 5 /w Glutamine Phenylalanine w Serine Tryptophan 2 /w 2 /w Tryptophan Pathway involves reaction R02722, a tryptophan synthesis reaction, catalysed by the enzyme tryptophan synthase (EC: ). However, due to reversible nature of the reaction it may proceed in the reverse direction. General Result Amino acids that are rapidly assimilated as carbon or nitrogen sources have short pathways between the amino acid and the TCA cycle or ammonia. Aziz Mithani (University of Oxford) Comp. Analysis of Assimilation Pathways Nitrogen2007 (30 July 2007) 10 / 17
11 Rahnuma Network Comparison Module Allows highlighting pathway specific differences between networks... Comparison between two networks or groups of networks Provides flexibility for comparative analysis at various levels strain species... Two types of comparison 1 Pathway Based Extension of pathway analysis Only reactions involved in the pathways from a metabolite to one or more metabolites are considered Can be used to study effects of in silico gene insertion or knock-out 2 Full Network All the reactions present in the network are considered Output Mode 1 Pathway 2 Reaction Aziz Mithani (University of Oxford) Comp. Analysis of Assimilation Pathways Nitrogen2007 (30 July 2007) 11 / 17
12 Comparative analysis on a phylogeny Comparing networks on a phylogeny may provide clue about ancestral networks... Number of reaction at various levels of Pseudomonas phylogeny Includes reactions involved in amino acid assimilation and related pathways only Aziz Mithani (University of Oxford) Comp. Analysis of Assimilation Pathways Nitrogen2007 (30 July 2007) 12 / 17
13 Case Study: Predicting Amino Acid Assimilation Pathways Alanine Assimilation Pathways in P. fluorescens PfO-1 Observation: Alanine is rapidly assimilated as a carbon and nitrogen source in P. fluorescens PfO-1. Hypothesis: Alanine has short pathways to the TCA cycle and ammonia. Pathway Prediction and Analysis TCA cycle Ammonia n =1 n =2 n =3 n =1 n =2 n =3 KEGG s PathComp Tool % % % % % % Rahnuma %!! % %! Pathways calculated separately for each metabolite in the TCA cycle Pathways calculated using Rahnuma s inherent functionality of specifying multiple destination metabolites Aziz Mithani (University of Oxford) Comp. Analysis of Assimilation Pathways Nitrogen2007 (30 July 2007) 13 / 17
14 Case Study: Predicting Amino Acid Assimilation Pathways Reactions reported by Rahnuma Subset of Reactions shown in the figure. Possible routes marked for carbon (red and green) and nitrogen (blue). None of these reactions picked by PathComp. Comparative Analysis Based on KEGG s reference network Possibly missing reaction R00258 (marked in black) in P. fluoresens PfO-1 corresponding to an aminotransferase A shorter pathway of length 2 from alanine to ammonia Aziz Mithani (University of Oxford) Comp. Analysis of Assimilation Pathways Nitrogen2007 (30 July 2007) 14 / 17
15 Future Work Rahnuma has lots of potential... Ancestral Network Building Host-pathogen interactions Phylogeny based analysis Enzyme based predictions and analysis Probabilistic network building Likelihood based prediction of pathways / reactions Aziz Mithani (University of Oxford) Comp. Analysis of Assimilation Pathways Nitrogen2007 (30 July 2007) 15 / 17
16 References and Acknowledgements With thanks to... References 1 Kanehisa, M., Goto, S., Hattori, M., Aoki-Kinoshita, K.F., Itoh, M., Kawashima, S., Katayama, T., Araki, M., and Hirakawa, M. From genomics to chemical genomics: new developments in KEGG. Nucleic Acids Res. 34, D (2006). 2 Rico, A., and Preston, G. M. Apoplast phenoarrays: An integrated approach to study nutritional specialization of Pseudomonas syringae in the plant apoplast (submitted) Acknowledgements Aziz Mithani (University of Oxford) Comp. Analysis of Assimilation Pathways Nitrogen2007 (30 July 2007) 16 / 17
17 The Team and many more... Aziz Mithani (University of Oxford) Comp. Analysis of Assimilation Pathways Nitrogen2007 (30 July 2007) 17 / 17
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